Non-aqueous electrolyte secondary battery negative electrode material, making method, and lithium ion secondary battery.
非水电解质二次电池负极材料,制造方法,和锂离子二次电池。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
Lithium metal is the most promising anode material because of its most negative normal electrode potential and the highest specific energy.
金属锂具有最负的电极电位和最高的金属比容量,是最有前途的负极材料。
Negative active material for lithium secondary battery, method for preparing the same, negative electrode comprising the same, and lithium secondary battery comprising same.
用于锂二次电池的负极活性物质,其制备方法,包括它的负电极和包括它的锂二次电池。
The paper also found that the positive carbon electrode was much smaller than that of negative one, so it urged to develop new positive material to make up hybrid capacitor.
由于碳基电容器正极容量远小于负极容量,所以本文主要致力于开发新的正极材料与作为负极的碳电极组成混合电容器。
The negative electrode includes at least zinc as a negative electrode active material.
所述负极至少含有锌作为负极活性物质;
The content of indium in the negative electrode active material is 0.02 wt % or less.
所述负极活性物质中的铟含量在0.02重量%以下。
Disclosed is a fuel cell having a structure wherein a positive electrode and a negative electrode face each other through a proton conducting material.
本发明提供一种具有正极和负极通过其间的质子导体彼此面对的结构的燃料电池。
Disclosed is a fuel cell having a structure wherein a positive electrode and a negative electrode face each other through a proton conducting material.
本发明提供一种具有正极和负极通过其间的质子导体彼此面对的结构的燃料电池。
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